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Works (34)

Hierarchical Controlled Joint Remote Implementation of the Partially Unknown Operations of m Qudits via m High-Dimensional Entangled States

Entropy
2024-10 | Journal article | Author
DOI: 10.3390/e26100857
Contributors: Ruiheng Jing; Qi Lan; ping zhou
Source: check_circle
Multidisciplinary Digital Publishing Institute

Hierarchical controlled remote preparation of an arbitrary m-qudit state with four- qudit cluster states

Quantum Inf. Process., 22: 113(2023)
2023 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Protecting high-dimensional entanglement from decoherence via quantum weak measurement and reversal

Mod. Phys. Lett. A, 37: 2250117 (2022)
2023 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Deterministic remote preparation of an arbitrary single-qudit state with high-dimensional spatial-mode entanglement via linear-optical elements

Int. J. Theor. Phys., 61: 36 (2022)
2022 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Controlled cyclic remote preparation of an arbitrary single-qudit state by using a seven-qudit cluster state as the quantum channel

Int. J. Theor. Phys., 60: 1635 (2021)
2021 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Effect of noise on remote preparation of an arbitrary single-qubit state

Quantum Engineering, 3: e64 (2021)
2021 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Effect of noise on deterministic remote preparation of an arbitrary two-qudit state by using a four-qudit χ-type state as the quantum channel

Int. J. Quantum Inf., 18: 2050028 (2020)
2020 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Joint remote state preparation of single-photon three-qubit state with hyperentangled state via linear- optical elements

Quantum Inf. Process., 19: 283(2020)
2020 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Hyper-parallel nonlocal CNOT operation with hyperentanglement assisted by cross-Kerr nonlinearity

Sci. Rep., 9:15939 (2019)
2019 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Multiparty quantum computation for summation and multiplication with mutually unbiased bases

Int. J. Theor. Phys., 58: 2872 (2019)
2019 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Remote implementation of single-qubit operations via hyperentangled states with cross-Kerr nonlinearity

JOSA B, 36: 867 (2019)
2019 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Remote preparation for single- photon two-qubit hybrid state with hyperentanglement via linear-optical elements

Sci. Rep., 9: 4663 (2019)
2019 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Joint remote control of an arbitrary single-qubit state by using a multiparticle entangled state as the quantum channel

Quantum Inf. Process., 17: 8 (2018)
2018 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Multiparty-controlled joint remote preparation of an arbitrary m-qudit state with d-dimensional Greenberger- Horne- Zeilinger states

Int. J. Theor. Phys., 57: 148 (2018)
2018 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Parallel remote state preparation of arbitrary single-qubit states via linear- optical elements by using hyperentangled Bell states as the quantum channel

Quantum Inf. Process., 17: 298 (2018)
2018 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Controlled remote implementation of an arbitrary single-qubit operation with partially entangled quantum channel

Int. J. Theor. Phys., 56: 1085 (2017)
2017 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Joint remote preparation of arbitrary two- and three-photon state with linear-optical elements

Quantum Inf. Process., 15: 4785 (2016)
2016 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Linear-optics-based bidirectional controlled remote state preparation via five- photon cluster-type states for quantum communication network

Int. J. Theor. Phys., 55: 535 (2016)
2016 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Bidirectional controlled remote implementation of an arbitrary single qubit unitary operation with EPR and Cluster states

Int. J. Theor. Phys., 54: 1726 (2015)
2015 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Controlled remote preparing of an arbitrary two-qudit state with two-particle entanglements and positive operator-valued measure

Commun. Theor. Phys., 61: 315 (2014)
2014 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Efficient joint remote preparation of arbitrary 2-qubit state via cluster and cluster-type states

Quantum Inf. Process., 13: 615 (2014)
2014 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Efficient joint remote preparation of arbitrary m-qudit state with partially entangled states

Int. J. Theor. Phys., 53: 159 (2014)
2014 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Probabilistic multiparty joint remote preparation of an arbitrary m-qubit state with a pure entangled quantum channel against collective noise

Int. J. Theor. Phys., 52: 849 (2013)
2013 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Joint remote preparation of an arbitrary m-qudit state with a pure entangled quantum channel via positive operator-valued measurement

J. Phys. A, 45: 215305 (2012)
2012 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Multiparty joint remote state preparation of an arbitrary GHZ-class state via positive operator-valued measurement

Int. J. Theor. Phys., 51: 2438 (2012)
2012 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Probabilistic multiparty- controlled teleportation of an arbitrary m-qubit state with a pure entangled quantum channel against collective noise

Sci. China Ser. G-Phys. Mech. Astron., 55: 2445-2451 (2012)
2012 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Probabilistic multiparty-controlled remote preparation of an arbitrary m-qudit state via positive operator-valued measurement

Int. J. Quantum Inf., 10: 1250062 (2012)
2012 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Multiparty - controlled teleportation of an arbitrary GHZ-class state by using a d-dimensional (N+2)- particle nonmaximally entangled state as the quantum channel

Sci. China Ser. G-Phys. Mech. Astron., 54: 484-490 (2011)
2011 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Probabilistic quantum entanglement swapping and quantum secret sharing with high-dimensional pure entangled systems

Phys. Scr., 79: 035005 (2009)
2009 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Efficient three-party quantum secret sharing with single photons

Chin. Phys. Lett., 24: 2181 (2007)
2007 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Multiparty quantum secret sharing with pure entangled states and decoy photons

Physica A, 381: 164-169 (2007)
2007 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Multiparty-controlled teleportation of an arbitrary m-qudit state with a pure entangled quantum channel

J. Phys. A, 40: 13121 (2007)
2007 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Probabilistic teleportation of an arbitrary GHZ-class state with a pure entangled two-particle quantum channel and its application in quantum state sharing

Chin. Phys., 16: 2867 (2007)
2007 | Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Effect of quantum noise on teleportation of an arbitrary single-qubit state via a triparticle W state

Int. J. Theor. Phys., 59: 1081 (2020)
Journal article
Contributors: ping zhou
Source: Self-asserted source
ping zhou

Peer review (6 reviews for 4 publications/grants)

Review activity for Advanced quantum technologies. (1)
Review activity for Optics and Laser Technology. (1)
Review activity for Quantum information processing. (3)
Review activity for Zhōngguó wùlǐ xuékān. (1)
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